US1811797A - Process for the production of sulphuric acid and oleum by the contact process - Google Patents

Process for the production of sulphuric acid and oleum by the contact process Download PDF

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US1811797A
US1811797A US285418A US28541828A US1811797A US 1811797 A US1811797 A US 1811797A US 285418 A US285418 A US 285418A US 28541828 A US28541828 A US 28541828A US 1811797 A US1811797 A US 1811797A
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gases
acid
contact
sulphuric acid
oleum
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US285418A
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Lechler Fritz
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    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01BNON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
    • C01B17/00Sulfur; Compounds thereof
    • C01B17/69Sulfur trioxide; Sulfuric acid
    • C01B17/74Preparation
    • C01B17/76Preparation by contact processes
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S55/00Gas separation
    • Y10S55/38Tubular collector electrode

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  • the presentinvention relates to the production of sulphuric acid and oleum by the contact process, and particularly to an improved process for the purification of sulfur dioxidecontaining gases for the contact process of.
  • the preparation of the gases for the contact apparatus by mynew process can be 5.0 carried out in two stages, a preliminary treat less water was added to'thegases which had ment and a final'treatment.
  • the gas is directly sprayed with sulphuric acid of increasing strength, for instance, first the gases are contacted with acid of B., then with acid of 5 8 B., and
  • sulphuric anhydride (S0 is. passed into'the electrical precipitation chamber where it avidly combines with the moisture still remaining in the gas to form a mist.
  • the introduction and regulation of the sulfur trioxide may be effected by steps in several places. In this way the content of contact poisons in the gases decreases in the direction of the flow of the gas. Correspondingly the precipitated acid can be removed at different places in grades of different acidity and purity.
  • the direct introduction of the sulfur trioxide from the contact converter has also the i advantage. that, particularly at the end of the precipitating apparatus, the temperature of the sulfur dioxide-containing gases may be so controlled, by taking advantage of the sen sible heat of the sulfur trioxide gases and of the heat of reaction set free when the sulfur trioxide combines with water, that the sulfur dioxide gases pass to the contact apparatus properly preheated. Since in this way even the preheating takes place in the electrical precipitation apparatus, there is a still further simplification of the apparatus.
  • A represents the apparatus for the preliminary treatment
  • B theapparatus for the final treatment
  • C the contact converter
  • the sulfur dioxide-containing gases enter the apparatus A by pipe 1.
  • they are sprayed with sulphuric acid by means of sprayers 2, the acid sprayed in each successive compartment 3 of apparatus A being of increasing strength.
  • the apparatus B is cooled by means of air or other cooling fluid circulated through the cooling space 10.
  • the sulphuric acid or oleum produced in the several compartments of apparatus B may be drawn off through pipes 13.
  • a process for preparing sulfur dioxidecontaining gases for conversion into sulphuric acid and oleum by the contact process which comprises first contacting the gases with a. series of sprays of sulphuric acid of successively greater strength up to a strength at which an appreciable amount of water is left in the gases,-and thereafter,-without any further treatment of the gases with sulphuric acid sprays, introducing sulfur trioxide into the gases and simultaneously subjecting the gases to the action of an electrical'potential and to indirect cooling to'rem'ove thememaining amounts of waterand other impurities.
  • a process for preparingsulfurdioxidecontaining gases for conversion into *ssulphuric acid and oleum by the contact process which comprises first contacting the ases with a series of sprays of sulphuric acld of successively greater strength uptoia strength "at which an appreciable'amount 'of water is left in the gasesyand thereafter, without any further treatment of the 'gases with sulphuri'c acid sprays, introducing 'sulfuntrioxl'de directly from the contact converterdntothe gases and simultaneously I subjecting the gases to the action of an electrical potential and to indirect cooling to remove the remaining amounts of water and other impurities.
  • a process for prepa-ring'sulfur'dioxidecontaining gases for conversion "into -sulphuricacid and oleum by the contactprocess which comprises "first contacting the gases with a series Ofsprays of suphuric acid'of successively greater strength upto'astre'ngth at which an appreciable amount of water is left in the gases, and thereafter,'withoutany further treatment of the gases withsulphuric acid sprays, introducing sulfur trioxide into the gases and simultaneouslysubjectingthe gases to the action of an electricalpotential and to indirect cooling to remove the remaining amounts of water'and other impurities, the sulfur trioxide being introduced into'the sulfur dioxide-containing 'gases'in a plurality of stages.
  • a process for preparing sulfur fdioxide-containing gases for conversion into' sul phuricacid and oleum by the contact process which comprises first contacting the gases with a series of sprays ofsulphuric acid of successively greater strengtlnand thereafter, without any further treatment'of'thegases with sulphuric acid'sprays, introducing-sulfur trioxide into the gases *and'simultaneously subjecting the gases to "the action of an electrical potential and to indirect cooling to remove the remaining'amounts o'f with a series of sprays of sulphuric acid of successively greater strength, and thereafter, without any further treatment of the gases with sulphuric acid sprays, introducing sulfur trioxide into the gases and 'simulta neously subjecting the gases to the'action of an electrical potential and to indirect cooling to remove the remaining amounts of water and other impurities, the sulfur trioxide being introduced into the sulfur dioxidecontaining gases in a plurality of stages,
  • sulfur dioxide-containing gases being prewarmed by the addition of suificiently large quantities of sulfur trioxide directly from the converter in the last stage.

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Inorganic Chemistry (AREA)
  • Treating Waste Gases (AREA)

Description

June 23, 1931. LECHLER 1,811,797
P300535 FOR THE PRODUCTION OF SULPHURIC 5cm AND OLEUM BY THE CONTACT PROCESS Filed June 14, 1928 r gmwmtot- F1 F247: L A far Patented June 23,- 1931 UNITED STATES FRITZ LECHLER, OF FRANKFURT-ON-THE-MAIN, GERMANY PROCESS FOR THE PRODUCTION OF SULPHURIC ACID AND PROCESS onnuivr BY THE CONTACT Application filed June 14, 1928, Serial No. 285,418, and in Germany July 7, 1927.
The presentinvention relates to the production of sulphuric acid and oleum by the contact process, and particularly to an improved process for the purification of sulfur dioxidecontaining gases for the contact process of.
making sulphuric anhydride.
Inthe production of sulphuric acid and oleum by the contact process, the sulfur dioxide-containing gases, before passing into the contact apparatus, must be submitted to (1) suitable cooling,'(2) careful purification from contact poisons, (3) thorough drying, and separation of the sulphuric acid mist picked up by the gases in drying. All of these operations have hitherto been separately carried out; These various treatments are necessaryiniorder .to obtain a complete reaction, to avoid poisoning thecontact substances by impurities, and to producea pure acid. 7
It is known that for the exhaustive removal ofcontact poisons, such as arsenic acid, which are present in the gasesas suspended particles, so called nuclei in the form of aqueous mists must be produced in the gases, which pick up the lasttraces of impurities and are thereafter separated from the gases in an electrical field. Heretofore the purification was either efiected by adding water and sulphuric anhy- 80 dride to the gases to be purified or a mist in s the form of droplets of water andsulphuric acid was produced in the gases by gradual cooling of the gases by meansof acid of de-' creasingstrength; In. either case more or 3! later to be removed in aspecial cumbersome, drying apparatus. r V
I have discovered a new'method of'carrying outthe process in which the various processes above mentioned are grouped together with other processes and are so interconnected that it becomes possible to carry out the processes of'cooling, separation of contact poi sons, drying, absorption and 'prewarming simultaneously, whereby the process of separating the droplets. of acid used for drying the gases is wholly eliminated.
The preparation of the gases for the contact apparatus by mynew process can be 5.0 carried out in two stages, a preliminary treat less water was added to'thegases which had ment and a final'treatment. In the preliminary treatment the gas is directly sprayed with sulphuric acid of increasing strength, for instance, first the gases are contacted with acid of B., then with acid of 5 8 B., and
finally with acid of B. In this way a part of the water necessary for mist formation is added to the gases in the form of dilute acid during the preliminary treatment, In the further course of the'preliminary treatment a partial drying of the gases occurs by spraying with acid of higher strength, whereby at ing apparatus. This second part of the equipment, which is essentially an electrical pre-V cipitationapparatus, .is so constructed that it acts as an indirect cooler, the electrical precipitation apparatus being enclosed in a cooling space, by means of which the proper cooling is attained without the aid of any further cooling devices. 7
In order to simultaneously effect the absolute purification of the gases, sulphuric anhydride (S0 is. passed into'the electrical precipitation chamber where it avidly combines with the moisture still remaining in the gas to form a mist.
The addition of the sulphuric anhydridecontaining. gases is so regulated that all of the. Water is completely converted to sulphuric acid mist. The mist thus produced is then precipitated by the electrical apparatus.
By this method moisture is eliminated from the gas together with the last traces of arsenic and other suspended matter, so that the: spraying with concentrated sulphuric acid, which would otherwise be necessary, as well as the removal of the droplets of drying acid, is rendered wholly unnecessary. The construction of the large apparatus required for these operations is thus avoided.
It is advantageous to draw off from the contact converter of the plant the sulfur trioxide gas necessary for drying and mist formation. Since this is precipitated in the form of sulphuric acid mist, the otherwise necessary absorption of a part of the sulfur trioxide produced is avoiled. By proper regulation of the introduction of sulfur trioxide high strength sulphuric acid or even o-leum can be obtained as a precipitation product.
The introduction and regulation of the sulfur trioxide may be effected by steps in several places. In this way the content of contact poisons in the gases decreases in the direction of the flow of the gas. Correspondingly the precipitated acid can be removed at different places in grades of different acidity and purity.
In this way in the last section of the precipitation apparatus, into which the greatest amount of sulfur trioxide is advantageously introduced, a condensate may be produced, which may be considered to be completely pure and especially to be free from arsenic.
The direct introduction of the sulfur trioxide from the contact converter has also the i advantage. that, particularly at the end of the precipitating apparatus, the temperature of the sulfur dioxide-containing gases may be so controlled, by taking advantage of the sen sible heat of the sulfur trioxide gases and of the heat of reaction set free when the sulfur trioxide combines with water, that the sulfur dioxide gases pass to the contact apparatus properly preheated. Since in this way even the preheating takes place in the electrical precipitation apparatus, there is a still further simplification of the apparatus.
By way of example, one embodimentof the invention is illustrated in the accompanying drawing.
In the drawing A represents the apparatus for the preliminary treatment, B theapparatus for the final treatment, andC the contact converter.
The sulfur dioxide-containing gases enter the apparatus A by pipe 1. In this apparatus they are sprayed with sulphuric acid by means of sprayers 2, the acid sprayed in each successive compartment 3 of apparatus A being of increasing strength. a
From apparatus A. the preliminarily treatcd sulfur-dioxide containing gases pass to apparatus B by means of pipe 4:. Sulphuric anhydride is introduced into the several compartments 5 of apparatus B by means of pipes 6 and ports 7 The mist produced by the interaction of the sulphuric anhydride and the moisture still remaining in the gases is precipitated by means of the electrical precipitators of the known type represented by electrodes 8 and 9.
The apparatus B is cooled by means of air or other cooling fluid circulated through the cooling space 10.
The completely purified gases are now conducted to the contact converter C by means of pipe 11 and blower 12.
The sulphuric acid or oleum produced in the several compartments of apparatus B may be drawn off through pipes 13.
I claim:
1. A process for preparing sulfur dioxidecontaining gases for conversion into sulphuric acid and oleum by the contact process which comprises first contacting the gases with a. series of sprays of sulphuric acid of successively greater strength up to a strength at which an appreciable amount of water is left in the gases,-and thereafter,-without any further treatment of the gases with sulphuric acid sprays, introducing sulfur trioxide into the gases and simultaneously subjecting the gases to the action of an electrical'potential and to indirect cooling to'rem'ove thememaining amounts of waterand other impurities.
2. A process for preparingsulfurdioxidecontaining gases for conversion into *ssulphuric acid and oleum by the contact process which comprises first contacting the ases with a series of sprays of sulphuric acld of successively greater strength uptoia strength "at which an appreciable'amount 'of water is left in the gasesyand thereafter, without any further treatment of the 'gases with sulphuri'c acid sprays, introducing 'sulfuntrioxl'de directly from the contact converterdntothe gases and simultaneously I subjecting the gases to the action of an electrical potential and to indirect cooling to remove the remaining amounts of water and other impurities.
3. A process for prepa-ring'sulfur'dioxidecontaining gases for conversion "into -sulphuricacid and oleum by the contactprocess which comprises "first contacting the gases with a series Ofsprays of suphuric acid'of successively greater strength upto'astre'ngth at which an appreciable amount of water is left in the gases, and thereafter,'withoutany further treatment of the gases withsulphuric acid sprays, introducing sulfur trioxide into the gases and simultaneouslysubjectingthe gases to the action of an electricalpotential and to indirect cooling to remove the remaining amounts of water'and other impurities, the sulfur trioxide being introduced into'the sulfur dioxide-containing 'gases'in a plurality of stages.
4;. A process for preparing sulfur fdioxide-containing gases for conversion into' sul phuricacid and oleum by the contact process which comprises first contacting the gases with a series of sprays ofsulphuric acid of successively greater strengtlnand thereafter, without any further treatment'of'thegases with sulphuric acid'sprays, introducing-sulfur trioxide into the gases *and'simultaneously subjecting the gases to "the action of an electrical potential and to indirect cooling to remove the remaining'amounts o'f with a series of sprays of sulphuric acid of successively greater strength, and thereafter, without any further treatment of the gases with sulphuric acid sprays, introducing sulfur trioxide into the gases and 'simulta neously subjecting the gases to the'action of an electrical potential and to indirect cooling to remove the remaining amounts of water and other impurities, the sulfur trioxide being introduced into the sulfur dioxidecontaining gases in a plurality of stages, the
sulfur dioxide-containing gases being prewarmed by the addition of suificiently large quantities of sulfur trioxide directly from the converter in the last stage.
In testimony whereof, I aifix my signature.
FRITZ LEOHLER.
US285418A 1927-07-07 1928-06-14 Process for the production of sulphuric acid and oleum by the contact process Expired - Lifetime US1811797A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3704569A (en) * 1970-04-02 1972-12-05 Universal Oil Prod Co System for conditioning flue gas with h{11 {11 so{11
US4654205A (en) * 1986-01-15 1987-03-31 C-I-L Inc. Sulphur trioxide absorption apparatus and process
US4659556A (en) * 1983-03-04 1987-04-21 Allied Corporation Single step purification of sulfur dioxide gas prepared by the combustion of sulfur containing compounds
US20060226373A1 (en) * 2005-03-02 2006-10-12 Eisenmann Corporation Wet electrostatic precipitator for treating oxidized biomass effluent
US20060261265A1 (en) * 2005-03-02 2006-11-23 Eisenmann Corporation Dual flow wet electrostatic precipitator

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3704569A (en) * 1970-04-02 1972-12-05 Universal Oil Prod Co System for conditioning flue gas with h{11 {11 so{11
US4659556A (en) * 1983-03-04 1987-04-21 Allied Corporation Single step purification of sulfur dioxide gas prepared by the combustion of sulfur containing compounds
US4654205A (en) * 1986-01-15 1987-03-31 C-I-L Inc. Sulphur trioxide absorption apparatus and process
US20060226373A1 (en) * 2005-03-02 2006-10-12 Eisenmann Corporation Wet electrostatic precipitator for treating oxidized biomass effluent
US20060261265A1 (en) * 2005-03-02 2006-11-23 Eisenmann Corporation Dual flow wet electrostatic precipitator
US7297182B2 (en) * 2005-03-02 2007-11-20 Eisenmann Corporation Wet electrostatic precipitator for treating oxidized biomass effluent
US7318857B2 (en) * 2005-03-02 2008-01-15 Eisenmann Corporation Dual flow wet electrostatic precipitator

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